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855 results on '"Ramsey, N."'

151. Interrogating the Osmotic Pressure of Self-Crowded Bovine Serum Albumin Solutions: Implications of Specific Monovalent Anion Effects Relative to the Hofmeister Series

Author

Hale, Christopher S., Ornelas, Danielle N., Yang, Jennifer S., Chang, Larry, Vang, Kevin, Batarseh, Ramsey N., Ozaki, Noriko, and Rodgers, Victor G. J.

Abstract

The free-solvent-based (FSB) model and osmotic pressure were used to probe the ion binding and protein hydration for self-crowded bovine serum albumin in 0.15 M NaF, NaCl, NaI, and NaSCN solutions. All experiments were conducted with solutions at pH 7.4. The regressed results of the FSB model behavior to the measured osmotic pressure were excellent, albeit, the osmotic pressure data for NaSCN were noisy. The resulting ion binding and hydration were realistic values and the covariance of the two parameters was exceptionally low, providing substantial credibility to the FSB model. The results showed that the kosmotropic F–and neutral Cl–solutions generated significantly higher ion binding and protein hydration than the chaotropic solutions of I–and SCN–. Further, the ionic strength ratio and resulting hydration implied that the chaotropic solutions had substantially higher aggregation than the other salts investigated. Overall, the FSB model provides an additional, complementary tool to contribute to the analysis of crowded protein solutions relative to anions in the Hofmeister series as it can interrogate crowded solutions directly; something that is not possible with many measurement techniques.

Published
2018
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152. Live Cell Imaging with Rab-Gtpases Elucidates Intracellular Pathways of RGD and iRGD Tagged Cationic Lipid-DNA Nanoparticles

Author

Kai K. Ewert, Venkata Ramana Kotamraju, Ramsey N. Majzoub, Chia-Ling Chan, Cyrus R. Safinya, Keng S. Liang, and Erkki Ruoslahti

Subjects
biology, Endosome, Chemistry, Integrin, Biophysics, Gene delivery, Biochemistry, In vivo, Live cell imaging, biology.protein, PEGylation, Rab, Intracellular
Abstract

Steric stabilization of cationic lipid-DNA (CL-DNA) complexes is required for their use in vivo, but PEGylation (PEG; polyethylene glycol) of CL-DNA complexes reduces their efficacy as gene delivery vectors in vitro [1]. One approach to improving gene delivery with PEGylated CL-DNA nanoparticles is to covalently attach a targeting peptide at the distal end of PEG. We have developed PEGylated CL-DNA nanoparticles with an RGD or iRGD motif present at the distal end of PEG2000 and studied their efficacy and mechanism of entry in vitro. Studies have shown that nanoparticles exposing an RGD peptide are capable of targeting tumors in vivo via a specific interaction with the membrane bound receptor integrin. Recently, the next generation of RGD peptides, internalizing RGD (iRGD) has been shown to target and penetrate tumors in vivo [2]. Although neuropillin-1 is known to play a role in the tumor penetration properties of iRGD, the intracellular mechanism which allows for tumor penetration is unknown. In order to investigate how iRGD promotes tumor penetration, we performed live cell imaging of fluorescently labeled RGD and iRGD-tagged CL-DNA nanoparticles using GFP-Rab-GTPases, an endosomal membrane bound protein which allows for spatio-temporal tracking of endosomal cargo.We present quantitative analysis using GFP-Rab-(5, 7 and 9) which label early and late endosomes and compare the colocalization of RGD and iRGD in these endosomes as a function of time. Finally, we investigated the gene delivery properties of RGD and iRGD-tagged lipid-DNA nanoparticles through the use of gene expression assays. A thorough understanding of the intracellular fate of CL-DNA nanoparticles will allow for optimization of gene delivery vectors. Funded by NIH-GM59288.[1] Chan, C.L. et al.; Biomaterials, 33, 4928-4935, 2012.[2] Sugahara, K.N. et al.; Cancer Cell, 16(6), 510-520, 2009.

Published
2014
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153. Brain Computer Interfaces (BCIs) Based on the P300 Event Related Potential (ERP)

Author

Gonzalez Llinares, B., Werkhoven, P.J. (Thesis Advisor), Ramsey, N., Thurlings, M.E., Gonzalez Llinares, B., Werkhoven, P.J. (Thesis Advisor), Ramsey, N., and Thurlings, M.E.

Abstract

Research in Brain-Computer Interfaces (BCIs) ranges from applications for people with severe motor disorders such as amyotrophic lateral sclerosis (ALS), to applications for the consumer market such as games. During the last decades significant progress has been achieved in this field. BCIs can be based on different techniques that measure brain activity, the most used of them being electroencephalography (EEG). In turn, different EEG signals can be used to control a device via a BCI system, including event related potentials (ERPs) such as the P300. This ERP is particularly interesting for BCI control because it allows to communicate attendance to a choice stimulus with practically no training required. Multimodal presentation enhances P300 amplitude and it is hypothesized to be one way to improve BCI efficiency as attentional capacity for processing concurrent stimuli is larger across sensory modalities than within a single modality. This review focuses on current P300-based BCIs, especially those which use multimodal stimuli. We also cover the differences between P300s elicited in different modalities, suggestions of other ERPs and brain oscillations which might contribute to improve such BCI, and an overview of the neurobiology of multimodal integration. Finally, possible applications of this type of system and proposals for future research are discussed.

Published
2010

162. The Effect of Formation Pathway on the Structure and Stability of PEGylated Lipoplexes at Physiological Conditions: Implications for Gene Delivery

Author

Ulf Olsson, Youli Li, Bruno F. B. Silva, Cyrus R. Safinya, Chia-Ling Chan, and Ramsey N. Majzoub

Subjects
chemistry.chemical_classification, Small-angle X-ray scattering, Biophysics, Polymer, Polyethylene glycol, Gene delivery, chemistry.chemical_compound, Crystallography, chemistry, Ionic strength, PEG ratio, Lamellar structure, Cationic liposome
Abstract

Cationic liposome - DNA (CL-DNA) complexes (or lipoplexes) are among the most promising materials for delivery of genes into mammalian cells for gene therapy applications. These complexes are found to remain stable in monovalent salt solutions until ca. 500 mM. Long term circulation in blood requires a repulsive polymer coat to prevent removal by the immune system. A viable way of obtaining coated CL-DNA particles is incorporation of polyethylene glycol lipids (PEG-lipids) before mixing with DNA (Ewert et al. Topics Curr. Chem. 2010, 296, 191-226). Here we show that pegylated complex stability in salt depends on the preparation method of the particles. CL-DNA particles with 5 mol% of PEG 2000 form stable complexes with well defined lamellar peaks in water. The structure remains stable after addition of a 150 mM NaCl or DMEM medium (both with ionic strength near physiological conditions). Conversely, if complexes are initially formed in salt or DMEM medium, the structure is less stable with small-angle X-ray scattering (SAXS) showing the coexistence of narrow and broad lamellar peaks. If the PEG amount in the bilayers is increased to 10%, the particles formed in water continue to be well defined, but the ones formed in salt and DMEM exhibit small domain sizes as revealed in SAXS experiments. Cryo-TEM images also show onion-like structures with very few layers. Since pegylated CL-DNAs are widely used in gene therapy applications, these results are of significance since it is reasonable to expect that the degree of compactness of these particles (which depends on the preparation method) will strongly affect complex stability and transfection efficiency.Funded by: NIH GM59288. BFBS acknowledges funding from the European Community under a Marie Curie IOF grant (n252701).

Published
2012
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167. Studies of the wall shift in the hydrogen maser

Author

Ramsey, N. F and Zitzewitz, P. W

Subjects
Masers
Abstract

Frequency shift in hydrogen maser due to atomic collisions with storage bulb surface /wall shift/, investigating temperature dependence

Published
1971

168. Wall shift of FEP Teflon in the hydrogen maser

Author

Ramsey, N. F, Uzgiris, E. E, and Zitzewitz, P. W

Subjects
Masers
Abstract

Atomic hydrogen maser wall shift determined by measurements on FEP Teflon coated storage bulbs, suggesting Teflon properties change as basis

Published
1970

170. Hydrogen-maser principles and techniques.

Author

Berg, H. C, Crampton, S. B, Kleppner, D, Peters, H. E, Ramsey, N. F, Vanier, J, and Vessot, R. F. C

Subjects
Masers
Abstract

Hydrogen maser construction and operation design principles emphasizing microwave cavity, low magnetic field, hydrogen storage and maser tuning techniques

Published
1965

171. Fluorescence microscopy colocalization of lipid–nucleic acid nanoparticles with wildtype and mutant Rab5–GFP: A platform for investigating early endosomal events.

Author

Majzoub, Ramsey N., Chan, Chia-Ling, Ewert, Kai K., Silva, Bruno F.B., Liang, Keng S., and Safinya, Cyrus R.

Subjects
*FLUORESCENCE microscopy, *NUCLEIC acids, *NANOPARTICLES, *CELL membranes, *ENDOSOMES, *GENETIC mutation
Abstract

Endosomal entrapment is known to be a major bottleneck to successful cytoplasmic delivery of nucleic acids (NAs) using cationic liposome–NA nanoparticles (NPs). Quantitative measurements of distributions of NPs within early endosomes (EEs) have proven difficult due to the sub-resolution size and short lifetime of wildtype EEs. In this study we used Rab5–GFP, a member of the large family of GTPases which cycles between the plasma membrane and early endosomes, to fluorescently label early endosomes. Using fluorescence microscopy and quantitative image analysis of cells expressing Rab5–GFP, we found that at early time points (t < 1 h), only a fraction (≈ 35%) of RGD-tagged NPs (which target cell surface integrins) colocalize with wildtype EEs, independent of the NP's membrane charge density. In comparison, a GTP-hydrolysis deficient mutant, Rab5–Q79L, which extends the size and lifetime of EEs yielding giant early endosomes (GEEs), enabled us to resolve and localize individual NPs found within the GEE lumen. Remarkably, nearly all intracellular NPs are found to be trapped within GEEs implying little or no escape at early time points. The observed small degree of colocalization of NPs and wildtype Rab5 is consistent with recycling of Rab5–GDP to the plasma membrane and not indicative of NP escape from EEs. Taken together, our results show that endosomal escape of PEGylated nanoparticles occurs downstream of EEs i.e., from late endosomes/lysosomes. Our studies also suggest that Rab5–Q79L could be used in a robust imaging assay which allows for direct visualization of NP interactions with the luminal membrane of early endosomes. [ABSTRACT FROM AUTHOR]

Published
2015
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174. Book reviewsEngineering in the Lambeth Group. HightD. W., EllisonR. A. and PageD. P.. London: Construction Industry Research and Information Association, Report C583, 2004. 210 pp. 0 86017 583 9. [Member price £100; non-member price £50]Landslides in practice: Investigation, analysis, and remedial/preventative options in soils. CornforthD. H.. Hoboken, NJ: John Wiley & Sons, 2005. 596 pp. 0 471 67816 3. [£85·95]Geomorphology for Engineers. FookesP. G., LeeE. M. and MilliganG. (eds). Dunbeath: Whittles, 2005. 851 pp. 1-870325-03-6. [£100]

Author

May, R. E., primary, Hutchinson, J. N., additional, and Ramsey, N. R., additional

Published
2005
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181. Book reviewsManual of soil laboratory testing: volume 3, effective stress tests. (2nd edition.) HeadK. H.John Wiley & Sons, Chichester, 1997. 0 471 977959, £75, 428 pp.Teach/me data analysis. Springer Verlag, 1999. 3540 14743 8, £28, 100 pp.International conference on offshore and nearshore geotechnical engineering. SinghS. K. and LacasseS. (eds). A. A. Balkema, Rotterdam, 2000. 90 5809 2119, £57, 488 pp.Recommendations of the ERTC9—bored tunnels. (Geotechnical aspects of the design of shallow bored tunnels in soils and soft rock.)WittkeW. (ed.), International Society for Soil Mechanics and Foundation Engineering. Ernst & Sohn, 1997. 3 433 013209, £35, 130 pp.Characterization of marine clays. TsuchidaT. and NakaseA. (eds). A.A. Balkema, Rotterdam, 1999. 90 5809 104X, £53, 284 pp.Slope stability engineering—volumes 1 and 2. YagiN., YamagamiT. and JiangJ.-C. (eds). A.A. Balkema, Rotterdam, 1999. 9058 09 0795, £95, 1411 pp.Tree root damage to buildings. (Two volumes.) BiddleP. G.. Willowmead Publishing, Wantage, 1998. 0 9533086 0 X, £95 for set, vol. 1 376 pp, vol. 2 299 pp.Field measurements in geomechanics. LeungC. F., TanS. A. and PhoonK. K. (eds). A.A. Balkema, Rotterdam, 1999. 90 5809 0663, £60, 616 pp.Landslide GriffthsJ. S., StokesM. R. and ThomasR. G. (eds). Balkema, Rotterdam, 1999. 90 5809 078 7, £56, 161 pp.The essential guide to the ICE specification for piling and embedded retaining walls. The Federation of Piling Specialists and Thomas Telford, London, 1999. 0 7277 2738 9, £25, 94 pp.Urban ground engineering. Proceedings of the international conference in Hong Kong, China on 11–12 November 1998 organized by the Institution of Civil Engineers. ClarkeB. (ed.). Thomas Telford, London, 1999. 0 7277 2786 9, £55, 353 pp.

Author

Ramsey, N., primary, Aldridge, T., additional, Pakes, G., additional, Russell, D., additional, Bond, A., additional, Ridley, A. M., additional, Beadman, D. R., additional, and Hope, V. S., additional

Published
2000
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183. Brain implants for substituting lost motor function: state of the art and potential impact on the lives of motor-impaired seniors.

Author

Ramsey, N F, Aarnoutse, E J, and Vansteensel, M J

Abstract

Recent scientific achievements bring the concept of neural prosthetics for reinstating lost motor function closer to medical application. Current research involves severely paralyzed people under the age of 65, but implications for seniors with stroke or trauma-induced impairments are clearly on the horizon. Demographic changes will lead to a shortage of personnel to care for an increasing population of senior citizens, threatening maintenance of an acceptable level of care and urging ways for people to live longer at their home independent from personal assistance. This is particularly challenging when people suffer from disabilities such as partial paralysis after stroke or trauma, where daily personal assistance is required. For some of these people, neural prosthetics can reinstate some lost motor function and/or lost communication, thereby increasing independence and possibly quality of life. In this viewpoint article, we present the state of the art in decoding brain activity in the service of brain-computer interfacing. Although some noninvasive applications produce good results, we focus on brain implants that benefit from better quality brain signals. Fully implantable neural prostheses for home use are not available yet, but clinical trials are being prepared. More sophisticated systems are expected to follow in the years to come, with capabilities of interest for less severe paralysis. Eventually the combination of smart robotics and brain implants is expected to enable people to interact well enough with their environment to live an independent life in spite of motor disabilities. [ABSTRACT FROM AUTHOR]

Published
2014
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189. 3-D fMRI of working memory in schizophrenia

Author

Callicott, J.H., primary, Tallent, K., additional, Bertolino, A., additional, Ramsey, N., additional, Santha, A., additional, Knable, M., additional, Coppola, R., additional, Goldberg, T., additional, Mattay, V., additional, van Gelderen, P., additional, Frank, J.A., additional, Moonen, C.T.W., additional, and Weinberger, D.R., additional

Published
1996
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194. Reliability of the corticospinal tract and arcuate fasciculus reconstructed with DTI-based tractography: implications for clinical practice.

Author

Kristo G, Leemans A, de Gelder B, Raemaekers M, Rutten GJ, Ramsey N, Kristo, Gert, Leemans, Alexander, de Gelder, Beatrice, Raemaekers, Mathijs, Rutten, Geert-Jan, and Ramsey, Nick

Abstract

Objectives: To assess the reliability of diffusion tensor imaging (DTI)-based fibre tractography (FT), which is a prerequisite for clinical applications of this technique. Here we assess the test-retest reproducibility of the architectural and microstructural features of two clinically relevant tracts reconstructed with DTI-FT.Methods: The corticospinal tract (CST), arcuate fasciculus (AF) and its long segment (AFl) were reconstructed in 17 healthy subjects imaged twice using a deterministic approach. Coefficients of variation (CVs) of diffusion-derived tract values were used to assess the microstructural reproducibility. Spatial correlation and fibre overlap were used to assess the architectural reproducibility.Results: Spatial correlation was 68 % for the CST and AF, and 69 % for the AFl. Overlap was 69 % for the CST, 61 % for the AF, and 59 % for the AFl. This was comparable to 2-mm tract shift variability. CVs of diffusion-derived tract values were at most 3.4 %.Conclusions: The results showed low architectural and microstructural variability for the reconstruction of the tracts. The architectural reproducibility results encourage the further investigation of the use of DTI-FT for neurosurgical planning. The high microstructural reproducibility results are promising for using DTI-FT in neurology to assess or predict functional recovery. [ABSTRACT FROM AUTHOR]

Published
2013
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200. Endosomal escape and transfection efficiency of PEGylated cationic liposome–DNA complexes prepared with an acid-labile PEG-lipid

Author

Chan, Chia-Ling, Majzoub, Ramsey N., Shirazi, Rahau S., Ewert, Kai K., Chen, Yen-Ju, Liang, Keng S., and Safinya, Cyrus R.

Subjects
*VIRAL disease treatment, *DNA, *LIPOSOMES, *GENETIC transduction, *CLINICAL trials, *PHARMACOKINETICS, *DRUG efficacy
Abstract

Abstract: Cationic liposome–DNA (CL–DNA) complexes are being pursued as nonviral gene delivery systems for use in applications that include clinic trials. However, to compete with viral vectors for systemic delivery in vivo, their efficiencies and pharmacokinetics need to be improved. The addition of poly (ethylene glycol)-lipids (PEGylation) prolongs circulation lifetimes of liposomes, but inhibits cellular uptake and endosomal escape of CL–DNA complexes. We show that this limits their transfection efficiency (TE) in a manner dependent on the amount of PEG-lipid, the lipid/DNA charge ratio, and the lipid membrane charge density. To improve endosomal escape of PEGylated CL–DNA complexes, we prepared an acid-labile PEG-lipid (HPEG2K-lipid, PEG MW 2000) which is designed to lose its PEG chains at the pH of late endosomes. The HPEG2K-lipid and a similar but acid-stable PEG-lipid were used to prepare PEGylated CL–DNA complexes. TLC and dynamic light scattering showed that HPEG2K-CL–DNA complexes are stable at pH 7.4 for more than 24 h, but the PEG chains are cleaved at pH 5 within 1 h, leading to complex aggregation. The acid-labile HPEG2K-CL–DNA complexes showed enhanced TE over complexes stabilized with the acid-stable PEG-lipid. Live-cell imaging showed that both types of complexes were internalized to quantitatively similar particle distributions within the first 2 h of incubation with cells. Thus, we attribute the increased TE of the HPEG2K-CL–DNA complexes to efficient endosomal escape, enabled by the acid-labile HPEG2K-lipid which sheds its PEG chains in the low pH environment of late endosomes, effectively switching on the electrostatic interactions that promote fusion of the membranes of complex and endosome. [Copyright &y& Elsevier]

Published
2012
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